PREDICTION FOR HUMAN INTELLIGENCE USING MORPHOMETRIC CHARACTERISTICS OF CORTICAL SURFACE: PARTIAL LEAST SQUARE ANALYSIS
- Authors
- Yang, J. -J.; Yoon, U.; Yun, H. J.; Im, K.; Choi, Y. Y.; Lee, K. H.; Park, H.; Hough, M. G.; Lee, J. -M.
- Issue Date
- Aug-2013
- Publisher
- Elsevier BV
- Keywords
- cortical thickness; sulcal depth; curvature; surface area; partial least square regression; human intelligence
- Citation
- Neuroscience, v.246, pp 351 - 361
- Pages
- 11
- Indexed
- SCI
SCIE
SCOPUS
- Journal Title
- Neuroscience
- Volume
- 246
- Start Page
- 351
- End Page
- 361
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/162284
- DOI
- 10.1016/j.neuroscience.2013.04.051
- ISSN
- 0306-4522
1873-7544
- Abstract
- A number of imaging studies have reported neuroanatomical correlates of human intelligence with various morphological characteristics of the cerebral cortex. However, it is not yet clear whether these morphological properties of the cerebral cortex account for human intelligence. We assumed that the complex structure of the cerebral cortex could be explained effectively considering cortical thickness, surface area, sulcal depth and absolute mean curvature together. In 78 young healthy adults (age range: 17-27, male/female: 39/39), we used the full-scale intelligence quotient (FSIQ) and the cortical measurements calculated in native space from each subject to determine how much combining various cortical measures explained human intelligence. Since each cortical measure is thought to be not independent but highly inter-related, we applied partial least square (PLS) regression, which is one of the most promising multivariate analysis approaches, to overcome multicollinearity among cortical measures. Our results showed that 30% of FSIQ was explained by the first latent variable extracted from PLS regression analysis. Although it is difficult to relate the first derived latent variable with specific anatomy, we found that cortical thickness measures had a substantial impact on the PLS model supporting the most significant factor accounting for FSIQ. Our results presented here strongly suggest that the new predictor combining different morphometric properties of complex cortical structure is well suited for predicting human intelligence.
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